A Simple Guide to Loudspeaker Technology

A measurement of power – same as for cookers, light, bulbs, heaters etc

Hz

Hertz

One Hz means backwards and forwards once in one second. Thus, a loudspeaker which is radiating 50Hz is moving in and out 50 times a second

SPL

Sound Pressure Level

Technical term for “how loud!” (Measured in dB)

– Decibels (dB): General Information

The dB scale is used when referring to how loud something is. 0dB is regarded as the threshold of hearing and 110dB is when it starts to hurt!

Double the power = 3dB increase in SPL

Power (in Watts) is related to dB in the following way: For every 3dB increase in SPL you will need to double how much power is sent to your loudspeaker.

At low power levels, for example 5 Watts to 10 Watts, this is not a problem; however, to get the same increase at high levels may require you to go from 1000W to 2000W for the listener to be aware of the same increase in sound level.

To the average ear

3dB is just a noticeable increase
10dB is twice as loud

Typical SPL’s Intolerable

140dB

30m (at the side of the runway) from a military aircraft at take off!

130dB

Pneumatic drill at the operator’s position

120dB

Ships engine room at full speed
Peak level in bunker at PLASA was 126dB

Very Noisy

110dB

Automatic Punch Press at the operator’s position
Average Nightclub level playing mainstream dance music

100dB

Platform of Underground station at rush hour with a train arriving/leaving

90dB

Heavy lorries at 6m distance. Health and Safety upper limit for noise in an average working day

Noisy

80dB

Kerbside of busy street

70dB

Loud radio in average domestic room

60dB

Restaurant/Department Store

Quiet

50dB

Conversational speech at 1m. General Office noise

40dB

Residential area at night. Whispered conversation at 1m

Very Quiet

<30dB

Background in TV and recording studios

– Loudspeakers – Some definitions

Power Handling This is probably the most commonly asked and quoted specification. How many Watts a speaker uses is often regarded as the best way of assessing how loud it will be. However, the keyword here is uses. A car engine can use a lot of petrol (Watts) without moving the car very quickly. In the same way, a speaker can use a lot of Watts without being very loud!

Sensitivity This parameter tells how much sound you will get per Watt. To continue the above analogy this is the “mpg” rating of the loudspeakers. The higher, the better. Speakers are rated in terms of how loud they will be when 1 Watt is fed to them. This loudness is measured at a distance of 1 metre from the speaker. Thus, if a speaker is rated as 99dB 1W/1m then you know that if you put 1 Watt in, at 1 metre distance you will hear 99dB.

Note: This is significantly more than a speaker rated at 96dB 1W/1m, because you will then need twice as much power to generate the same sound level. (See Decibels: General Information)

Power Compression The Watts that are not turned into sound get transformed into heat. This heat increases the electrical resistance of the speaker, making it harder for the amplifier to drive. The harder you drive the speaker, the more heat is generated.

To return to the motoring analogy: This is the “aerodynamics of the speaker”: The faster you drive, the more wind resistance there is. Thus, even more power is required to make up for this. The lower the power compression figure is, the better.

Dispersion Horn loaded loudspeakers do not radiate sound in all directions. They radiate a much greater proportion of this sound within a “dispersion angle”. This angle is affected by the design of the horn and can vary quite dramatically from one model to another.

They are quoted in the following manner; 90o x 50o (HxV) or something similar. This refers to the angles, horizontal and vertical from which you can move away from “straight out” and still hear the sound properly. 90o is a right angle, thus the quoted speaker will cover all areas when mounted in a corner within a 50o vertical (up & down) plane.

Frequency Response The frequencies covered by the loudspeaker. They are measured in Hz. The human ear can hear from 20Hz to 20000Hz to varying degrees of sensitivity. The average “shot to pieces” DJ/Rock ‘n’ Roller ear, probably only manages up to 15000Hz.

– Some basic calculations

Watts – dB increase: How many dB increase for full power input relative to 1 Watt

Watts

1

50

75

100

150

200

300

350

600

800

1200

dB

0

+17

+19

+20

+22

+23

+25

+25.5

+28

+29

+31

– Maximum Sound Output

To calculate the maximum SPL available from a loudspeaker

Max SPL = SENSITIVITY + dB at Full Power – Power Compression at Full Power

Sensitivity and power compression are found from the specification sheet. dB at full power can be found from the table above. If you cannot find the power compression figure then quote “excluding power compression” and omit it from the calculation.